CN204892393U - Production line automatic discharge inspects device on line by ready samples - Google Patents
Production line automatic discharge inspects device on line by ready samples Download PDFInfo
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- CN204892393U CN204892393U CN201520524356.5U CN201520524356U CN204892393U CN 204892393 U CN204892393 U CN 204892393U CN 201520524356 U CN201520524356 U CN 201520524356U CN 204892393 U CN204892393 U CN 204892393U
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Abstract
The utility model provides a production line automatic discharge inspects device on line by ready samples, includes a pay -off machinery arm and a transfer conveyer belt, the fixed detection mechanism that is equipped with in the tip outside of the one end of transfer conveyer belt, pay -off machinery arm will be gone up work piece that a process accomplished and put into detection mechanism and detect, the one end top of transfer conveyer belt is equipped with tilting mechanism, still is equipped with the conveyer belt of unloading that spanes transfer conveyer belt top between this tilting mechanism and the transfer conveyer belt, tilting mechanism detects qualified work piece with detection mechanism and puts into the transfer conveyer belt and transmit, detects unqualified work piece with detection mechanism and puts into the conveyer belt of unloading and unload. This production line automatic discharge inspects device on line by ready samples can judge the sieve to the work piece of processing and examine, has not only improved the automatic process of production line, has improved the efficiency of production with the detection, can screen out unqualified work piece in process of production moreover, and the process of having practiced thrift processing has improved production efficiency, has improved the yield of work piece more.
Description
Technical field
The utility model relates to a kind of automation equipment, particularly relates to a kind of online feeding device for inspection of automatic discharging of production line.
Background technology
In recent years, the demands such as low manufacturing cost and short manufacturing cycle are increasingly urgent, and traditional manufacturing technology can not meet the demand in market.Product checking operation in conventional art is comparatively disperseed, and needs manpower intervention to detect, and cannot realize production line continuous operations; In addition, in detection technique, relative complex, loaded down with trivial details, cause Product checking poor effect.
At present, China manufactures manufacture field major part and uses traditional offline inspection pattern.Testing process is complicated, loaded down with trivial details, time-consuming, effort.Custom-designed measuring tool is also depended on for representative key position and carries out off-line measurement.These detections are difficult to complete on automatic production line, depart from the active demand of " machine substitution ".
Utility model content
Technical problem to be solved in the utility model is to provide one and can be applicable in automatic assembly line, and workpiece automatic discharging to be processed is delivered to testing agency and the workpiece after detecting is delivered to the online feeding device for inspection of production line automatic discharging of next part production line.
The utility model solves the problems of the technologies described above adopted technical scheme: the online feeding device for inspection of a kind of production line automatic discharging, comprise a feeder mechanical arm and a transfer conveyer belt, it is characterized in that: outside the end of one end of described transfer conveyer belt, be fixed with testing agency, the workpiece that a upper operation machines is put into testing agency and is detected by described feeder mechanical arm, switching mechanism is provided with above one end of described transfer conveyer belt, the discharge conveyer above across transfer conveyer belt is also provided with between this switching mechanism and transfer conveyer belt, testing agency is detected qualified workpiece and puts into transfer conveyer belt and transmit by described switching mechanism, testing agency is detected underproof workpiece and put into discharge conveyer discharging.
Preferably, be provided with support above one end of described transfer conveyer belt, described support connects described switching mechanism.
Preferably, described feeder mechanical arm comprises the material loading part be positioned in outboard end, and described material loading part is done the motion of multiple directions along with feeder mechanical arm and rotated around the hinge of itself and feeder mechanical arm coupling part.
Preferably, described material loading part comprises a plate shaped stake body, and the center of this stake body is connected to the outboard end of described feeder mechanical arm, and the surrounding of described stake body is fixed with multiple fixture.
Preferably, described fixture comprise between the upper and lower every upper fixture and lower clamp, and comprise drive upper fixture near or away from the driving cylinder of lower clamp.
Preferably, described switching mechanism comprises a bearing connecting plate, and be positioned on bearing connecting plate along the turning cylinder that the width of bearing connecting plate is arranged, described turning cylinder is connected with bearing connecting plate, and can rotate around the axle of himself, described bearing connecting plate is fixed with the drive transmission device driving described turning cylinder to rotate, the two ends of described turning cylinder are fixedly connected with the turnover bracket being positioned at bearing connecting plate both sides respectively, the end of described turnover bracket connects air-actuated jaw, the length direction of described turnover bracket is vertical with turning cylinder, pneumatic clamps prodigiosin on described turnover bracket moves along the length direction of turnover bracket, and around the axial rotation in the same way of the length direction with turnover bracket.
For the ease of controlling the rotation of turnover bracket, described drive transmission device comprises the slide unit cylinder that a side of described bearing connecting plate is fixed with, the slide unit of described slide unit cylinder can along guide rail movement, this guide rail is parallel with the plane at bearing connecting plate place, described slide unit is fixedly connected with a plate, described connecting plate is provided with the tooth bar extended in parallel with bearing connecting plate, and described tooth bar engages a gear, and described gear is fixedly placed on turning cylinder.
For the ease of controlling the motion of air-actuated jaw, described turnover bracket is fixed with twin shaft cylinder, the output shaft of described twin shaft cylinder and the length direction of turnover bracket arrange in the same way and it are fixed with transition connecting plate, described transition connecting plate is vertical with the length direction of turnover bracket, and described transition connecting plate is fixed with single-revolution cylinder, the output shaft of described rotary cylinder is vertical with transition connecting plate, and the output shaft of described rotary cylinder around the axial rotation of himself, it can be fixedly connected with described air-actuated jaw.
Preferably, described connecting plate is a T-shaped connecting plate, and top and the bearing connecting plate of this T-shaped fix, and protuberance are fixedly connected with described tooth bar below T-shaped, described bearing connecting plate is fixed with the guide pin bushing passed for turning cylinder, described turning cylinder in described guide pin bushing around the axial rotation of himself.
Preferably, described testing agency comprises base, and the locating piece be positioned on base, workpiece to be detected placed by described locating piece, the both sides of described locating piece are provided with both sides hold down gag, top hold down gag is provided with above the both sides of described locating piece, described both sides hold down gag and top hold down gag are respectively to carrying out compression location above two side bottoms of workpiece to be detected and both sides, and the front and back of described locating piece are respectively equipped with the drift or no-go gage that can move horizontally, and carry out accuracy detection to the groove on workpiece to be detected.
Preferably, described both sides hold down gag comprises the compressed oil cylinder of two side bottoms being positioned at locating piece, and the output shaft of described compressed oil cylinder is horizontally disposed with and can compresses the position, both sides of the workpiece on locating piece towards locating piece motion;
Described top hold down gag comprises the transposition oil cylinder above the both sides being positioned at locating piece, the output shaft of this transposition oil cylinder is setting up and down and can rotate and move up and down, the output shaft of described transposition oil cylinder is fixed with laterally extending depression bar, the outboard end of described depression bar is provided with paw setting up and down, described transposition oil cylinder can drive described depression bar planar to horizontally rotate at it, and above the both sides of the workpiece to be detected compressed on locating piece that moves up and down.
Preferably, the both sides, front and back of described locating piece are respectively equipped with cylinder, and the output shaft of described cylinder is arranged towards locating piece, and the output shaft of described cylinder is fixed with the drift or no-go gage that arrange towards locating piece.
Move more steady to make the drift of detection or no-go gage, locating piece on described base and be also fixed with the guide post extended in the same way with the output shaft of cylinder between cylinder, the output shaft of described cylinder is fixed with laterally extending connecting rod, described connecting rod is provided with the hole passed for guide post, connecting rod is fixed described drift or no-go gage, described connecting rod moves along guide post under the driving of cylinder.
In order to make structure compacter, the top of the compressed oil cylinder of the both sides of described locating piece is covered with fixed mount, and described transposition oil cylinder is fixed on fixed mount;
It is the locating piece that row are arranged that described base is provided with at least two intervals, and be only provided with a transposition oil cylinder between every two locating pieces, the output shaft of transposition oil cylinder is fixedly connected with the mid portion of laterally extending depression bar, two outboard ends of depression bar are equipped with paw.
Compared with prior art, the utility model has the advantage of the online feeding device for inspection of this production line automatic discharging, automatic detection mechanism is added in the process of production line, and judgement screening can be carried out to the workpiece of processing, not only increase the automated process of production line, improve the efficiency of producing and detecting, and underproof workpiece can be screened out in process of production, the operation of having saved processing improves production efficiency, more improves the yield rate of workpiece.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 2 is the schematic diagram of the other direction of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 3 is the schematic perspective view of the material loading part of the feeder mechanical arm of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 4 is the switching mechanism schematic perspective view of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 5 is the front view of the switching mechanism of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 6 is the schematic perspective view of another angle of the switching mechanism of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 7 is the schematic perspective view of the testing agency of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 8 is the top view of the testing agency of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Fig. 9 is the side view of the testing agency of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Figure 10 is the side view of the other direction of the testing agency of the online feeding device for inspection of production line automatic discharging of the utility model embodiment.
Detailed description of the invention
Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.
As shown in Figure 1-2, the online feeding device for inspection of production line automatic discharging of the present utility model, comprise a feeder mechanical arm 1, and a transfer conveyer belt 8, this feeder mechanical arm 1 is positioned at the side of one end of this transfer conveyer belt 8, described transfer conveyer belt 8 is fixed with testing agency 2 outside the end of one end of feeder mechanical arm 1, the top erection of described transfer conveyer belt 8 near one end of feeder mechanical arm 1 has the discharge conveyer 9 tilting to extend from feeder mechanical arm 1 side to opposite side, the top of described discharge conveyer 9, namely this transfer conveyer belt 8 is also provided with a support 7 above one end of feeder mechanical arm 1, this support 7 is provided with switching mechanism 3, this switching mechanism 3 is positioned at the top of transfer conveyer belt 8.Workpiece after a upper stage process is put into testing agency 2 and is detected by this feeder mechanical arm 1, if it is qualified to detect, workpiece to be processed in testing agency 2 can take out by the switching mechanism 3 on the support 7 above one end of then transfer conveyer belt 8 be put on transfer conveyer belt 8, along with the motion of transfer conveyer belt 8 from one end to the other side transmits, enter next procedure of processing.If detect defective, the workpiece to be processed in testing agency 2 can be put into discharge conveyer 9 by switching mechanism 3, along with production line is sent in the motion of discharge conveyer 9.
As shown in Figure 3, for the schematic diagram of the material loading part 4 of this feeder mechanical arm 1, this material loading part 4 is connected to the outboard end of feeder mechanical arm 1, can do the motion of multiple directions along with feeder mechanical arm 1 and rotate around the hinge of the coupling part of itself and feeder mechanical arm 1.This material loading part 4 comprises a stake body 41, this stake body 41 is a plate shaped plate, the center of this stake body 41 is connected to the outboard end of feeder mechanical arm 1, along with feeder mechanical arm 1 is moved, and the axle be connected with stake body 41 around its center rotates, the surrounding of this stake body 41 is fixed with multiple fixture 42, this fixture 42 comprises the lower clamp 43 being positioned at below and the upper fixture 44 be positioned at above lower clamp 43, workpiece 100 is positioned at, between lower clamp, on this, fixture 44 can move up and down, along with moving up and down of upper fixture 44, clamp workpiece 100 to be processed or unclamp workpiece 100 to be processed, preferably, this fixture 42 also include drive upper fixture 44 near or away from the driving cylinder 45 of lower clamp 43.
As Figure 4-Figure 6, for the schematic diagram of the switching mechanism 3 in the online feeding device for inspection of this production line automatic discharging, comprise a bearing connecting plate 31, and be positioned at the turnover bracket 32 of bearing connecting plate 31 both sides, this turnover bracket 32 can rotate around its line between the two turning cylinder 33 in the same way, and this turning cylinder 33 and width of along bearing connecting plate 1 parallel with bearing connecting plate 31 extends.Fixed support 7 above one end of transfer conveyer belt 8, this support 7 is fixedly connected with described bearing connecting plate 31, and this bearing connecting plate 31 is horizontally disposed with.
One side of this bearing connecting plate 31 is fixed with a slide unit cylinder 34, this slide unit cylinder 34 is arranged towards the transfer conveyer belt 8 of below, and the slide unit 341 of this slide unit cylinder 34 moves along guide rail 342, and this guide rail 342 is parallel with the plane at bearing connecting plate 31 place.The slide unit 341 of this slide unit cylinder 34 is fixedly connected with the connecting plate 35 of a T-shaped, this connecting plate 35 is T-shaped, top and the bearing connecting plate 31 of this T-shaped are mutually permanently connected, the protuberance of the below of T-shaped is provided with the tooth bar 36 parallel with this bearing connecting plate 31, tooth bar 36 and a gear 37 engage each other, and described gear 37 is fixedly placed on described turning cylinder 33.And described gear 37 is fixedly placed on the middle part of turning cylinder 3.Preferably, described bearing connecting plate 31 is provided with the guide pin bushing 311 supplying the two end portions of turning cylinder 33 to pass, and turning cylinder 33 can rotate in guide pin bushing 311.By such mode, turning cylinder 33 and turnover bracket 32 are connected with bearing connecting plate 31.The connecting plate 35 etc. of this slide unit cylinder 34, guide rail 342 and T-shaped is all fixedly connected on bearing connecting plate 31, and arranges towards the transfer conveyer belt 8 of below.
The two ends of this turning cylinder 33 are fixedly connected on the side of turnover bracket 32 on the surface by key, when slide unit cylinder 34 drives slide unit 341 to move along guide rail 342, tooth bar 36 and slide unit 341 move in the same way, and then gear 37 is rotated, drive turning cylinder 33 around the rotation of the axis of himself simultaneously, and then drive turnover bracket 32 and turning cylinder 33 to rotate simultaneously.The structure of rack pinion, can control gear rotate angle, make the rotational angle of turnover bracket 32 be able to better control.And those skilled in the art also can recognize, not necessarily to adopt the rotation of the mode driving shaft of above-mentioned slide unit cylinder and rack-and-pinion, also can be other drive transmission devices, such as other forms of gear drive, or other forms of transmission mechanism, as long as the rotation that can drive turning cylinder 3.Utilize slide unit cylinder can control the motion of tooth bar better, and then the rotation of control gear, make the rotational angle of turnover bracket 2 more be easy to control.
This turnover bracket 32 is fixed with twin shaft cylinder 321, the axis of the output shaft of twin shaft cylinder 321 and the length direction of turnover bracket 32 are arranged in the same way, and the output shaft of twin shaft cylinder 321 is fixedly connected with a transition connecting plate 322, this transition connecting plate 322 is vertical with the length direction of turnover bracket 32, the length direction of turnover bracket 32 is also vertical with turning cylinder 33 simultaneously, transition connecting plate 322 is fixedly connected with single-revolution cylinder 323, the output shaft of rotary cylinder 323 is vertical with transition connecting plate 322 and the output shaft of described rotary cylinder 323 can around the axial-rotation of himself, and the output shaft of rotary cylinder 23 is fixedly connected with an air-actuated jaw 38, the axis of the output shaft of this rotary cylinder 323, the axis of namely rotating is vertical with transition connecting plate 322 and also vertical with turning cylinder 33, air-actuated jaw 38 can rotate around the axle with transition connecting plate 322 vertical direction in the plane parallel with transition connecting plate 322.And those skilled in the art also can recognize, this turnover bracket 32 also not necessarily to use twin shaft cylinder and rotary cylinder 323 realize air-actuated jaw moving and rotating around the axle in the same way of the length direction with turnover bracket 32 along turnover bracket 32 length direction, also can use other transmission and the motion of drive unit driving air-actuated jaw.
This switching mechanism can realize the rotation of turnover bracket 32, and air-actuated jaw 38 on turnover bracket 32 along the flexible and air-actuated jaw 38 of the length direction of turnover bracket 2 around the rotation with turnover bracket 32 length direction axle in the same way, make air-actuated jaw 38 to transport and to transmit workpiece to be processed.The structure of air-actuated jaw can adjust according to the needs of workpiece.And the flip angle of this turnover bracket 32 is convenient to accurate control, switching mechanism can be made to do multiple controlled motion.
Therefore, the workpiece to be processed 100 in the testing agency 2 outside end, transfer conveyer belt 8 one end can take out by switching mechanism 3 deliver to transfer conveyer belt 8, or rotates another angle and put to across on the discharge conveyer 9 on transfer conveyer belt 8.
As is seen in figs 7-10, for the schematic diagram of the online feeding device for inspection of this production line automatic discharging, this testing agency 2, be fixed on, comprise base 21, and the locating piece 22 be fixed on base 21, the shape of this locating piece 22 and the mating shapes of workpiece 100 to be detected, place for workpiece 100 to be detected.
Two side bottoms of this locating piece 22, be provided with compressed oil cylinder 23, the output shaft of this compressed oil cylinder 23 is horizontally disposed with and moves towards locating piece 22, can be positioned over the position, both sides of the workpiece 100 locating piece 22, the position of the left and right directions of workpiece 100 is limited from two side compressions.
Above the both sides of this locating piece 22, be fixed with transposition oil cylinder 24 respectively, preferably, the top of the compressed oil cylinder 23 of the both sides of this locating piece 22 is covered with fixed mount 26, transposition oil cylinder 24 is fixed on fixed mount 26, the output shaft 241 of transposition oil cylinder 24 is setting up and down and can rotate and move up and down, and it is fixedly connected with laterally extending depression bar 242, the outboard end of depression bar 242 is provided with paw 243 setting up and down, therefore, transposition oil cylinder 24 can drive depression bar 242 planar to horizontally rotate at it, and then position above the both sides making paw 243 alignment pieces 100, then position above the both sides compressing the workpiece 100 to be detected on locating piece 22 downwards, the position of workpiece 100 above-below direction is limited.
Preferably, if base 21 is provided with multiple locating piece 22, the plurality of locating piece 22 can form a line interval arrange, and the depression bar 242 between locating piece 22 can share a transposition oil cylinder 24, this transposition oil cylinder 24 is fixedly connected with the mid portion of laterally extending depression bar 242, two outboard ends of depression bar 242 are equipped with paw 243, and the paw 243 of two outboard ends of depression bar 242 pushes down the workpiece 100 on the locating piece 22 of both sides respectively.
On the both sides, front and back of this locating piece 22, be respectively equipped with cylinder 27, the output shaft of this cylinder 27 is arranged towards locating piece 22, and level can move towards locating piece 22 or move away from locating piece 22.The output shaft 271 of this cylinder 27 is fixed with the drift or no-go gage 28 that arrange towards locating piece 22, described drift or no-go gage 28 arrange in the same way with the output shaft of cylinder 27 and this drift or no-go gage 28 insert the chute being positioned at workpiece 100 under the driving of the output shaft 271 of cylinder 27, for measuring the precision of chute.
And preferably, on this base 21, the guide post 29 extended in the same way with the output shaft of cylinder 27 is also fixed with between locating piece 22 and cylinder 27, the output shaft 271 of described cylinder 27 is fixed with laterally extending connecting rod 272, described connecting rod 272 is vertical with the output shaft of cylinder 27, this connecting rod 272 is provided with the hole passed for guide post 29, connecting rod 272 is fixed described drift or no-go gage 28, therefore, when the output shaft 271 of cylinder 27 moves, connecting rod 272 and drift or no-go gage 28 all move along guide post 29, make the motion of go-no go gauge more steady, and then make detection more accurate.
This testing agency, as long as workpiece 100 to be detected is placed on locating piece 22, then workpiece 100 to be detected is compressed respectively by the hold down gag of both sides and the hold down gag of top, namely compressed oil cylinder and transposition oil cylinder is driven then to make workpiece 100 be located, then the drift that can move horizontally being positioned at both sides before and after workpiece 100 to be detected or no-go gage is driven to detect, particularly, namely cylinder 27 is driven, the drift that the output shaft of cylinder 27 is connected or no-go gage motion detect, the machining accuracy of workpiece 100 can be measured fast automaticly, depart from manual measurement, make to measure efficiency higher, time is shorter, it is more accurate to measure.
Workpiece 100 after testing agency 2 is detected, if qualified, then taken out by switching mechanism 3 and put into transfer conveyer belt 8, if defective, then still being taken out by switching mechanism 3 puts to discharge conveyer 9, discharge conveyer 9 is between transfer conveyer belt 8 and switching mechanism 3, and switching mechanism 3 rotates different angles, workpiece can be put to discharge conveyer 9 or transfer conveyer belt 8.
The online feeding device for inspection of this production line automatic discharging, automatic detection mechanism is added in the process of production line, and judgement screening can be carried out to the workpiece of processing, not only increase the automated process of production line, improve the efficiency of producing and detecting, and underproof workpiece can be screened out in process of production, the operation of having saved processing improves production efficiency, more improves the yield rate of workpiece.
Although more than describe in detail preferred embodiment of the present utility model, should be expressly understood that, for a person skilled in the art, the utility model can have various modifications and variations.All do within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (10)
1. the online feeding device for inspection of production line automatic discharging, comprise a feeder mechanical arm (1) and a transfer conveyer belt (8), it is characterized in that: outside the end of one end of described transfer conveyer belt (8), be fixed with testing agency (2), the workpiece that a upper operation machines is put into testing agency (2) and is detected by described feeder mechanical arm (8), switching mechanism (3) is provided with above one end of described transfer conveyer belt (8), the discharge conveyer (9) across transfer conveyer belt (8) top is also provided with between this switching mechanism (3) and transfer conveyer belt (8), testing agency (2) is detected qualified workpiece (100) and puts into transfer conveyer belt (8) and transmit by described switching mechanism (3), underproof workpiece (100) is detected in testing agency (2) and puts into discharge conveyer (9) discharging.
2. the online feeding device for inspection of production line automatic discharging as claimed in claim 1, it is characterized in that: described feeder mechanical arm (1) comprises the material loading part (4) be positioned in outboard end, described material loading part (4) is done the motion of multiple directions along with feeder mechanical arm (1) and is rotated around the hinge of itself and feeder mechanical arm (1) coupling part, described material loading part (4) comprises a plate shaped stake body (41), the center of this stake body (41) is connected to the outboard end of described feeder mechanical arm (1), the surrounding of described stake body (41) is fixed with multiple fixture (42).
3. the online feeding device for inspection of production line automatic discharging as claimed in claim 1, it is characterized in that: described switching mechanism (3) comprises a bearing connecting plate (31), and be positioned on bearing connecting plate (31) along the turning cylinder (33) that the width of bearing connecting plate (31) is arranged, described turning cylinder (33) is connected with bearing connecting plate (31), and can rotate around the axle of himself, described bearing connecting plate (31) is fixed with the drive transmission device driving described turning cylinder (33) to rotate, the two ends of described turning cylinder (33) are fixedly connected with the turnover bracket (32) being positioned at bearing connecting plate (31) both sides respectively, the end of described turnover bracket (32) connects air-actuated jaw (38), the length direction of described turnover bracket (32) is vertical with turning cylinder (33), air-actuated jaw (38) on described turnover bracket (32) can move along the length direction of turnover bracket (32), and around the length direction axial rotation in the same way with turnover bracket (32).
4. the online feeding device for inspection of production line automatic discharging as claimed in claim 3, it is characterized in that: described drive transmission device comprises the slide unit cylinder (34) that a side of described bearing connecting plate (31) is fixed with, the slide unit (341) of described slide unit cylinder (34) can move along guide rail (342), this guide rail (342) is parallel with the plane at bearing connecting plate (31) place, described slide unit (341) is fixedly connected with a plate (35), described connecting plate (35) is provided with the tooth bar (36) extended in parallel with bearing connecting plate (31), described tooth bar (36) engages a gear (37), described gear (37) is fixedly placed on turning cylinder (33).
5. the online feeding device for inspection of production line automatic discharging as claimed in claim 4, it is characterized in that: described turnover bracket (32) is fixed with twin shaft cylinder (321), the output shaft of described twin shaft cylinder (321) and the length direction of turnover bracket (32) arrange in the same way and it are fixed with transition connecting plate (322), described transition connecting plate (322) is vertical with the length direction of turnover bracket (32), and described transition connecting plate (322) is fixed with single-revolution cylinder (323), the output shaft of described rotary cylinder (323) is vertical with transition connecting plate (322), the output shaft of described rotary cylinder (23) it can be fixedly connected with described air-actuated jaw (38) around the axial rotation of himself.
6. the online feeding device for inspection of production line automatic discharging as claimed in claim 5, it is characterized in that: described connecting plate (35) is a T-shaped connecting plate, top and the bearing connecting plate (31) of this T-shaped fix, below T-shaped, protuberance is fixedly connected with described tooth bar (36), described bearing connecting plate (31) is fixed with for turning cylinder (33) guide pin bushing (311) that passes, described turning cylinder (33) in described guide pin bushing (311) around the axial rotation of himself.
7. the online feeding device for inspection of production line automatic discharging as claimed in claim 1, it is characterized in that: described testing agency (2) comprises base (21), and the locating piece (22) be positioned on base (21), described locating piece (22) is upper places workpiece (100) to be detected, the both sides of described locating piece (22) are provided with both sides hold down gag, top hold down gag is provided with above the both sides of described locating piece (22), described both sides hold down gag and top hold down gag are respectively to carrying out compression location above two side bottoms of workpiece (100) to be detected and both sides, and the front and back of described locating piece (22) are respectively equipped with the drift or no-go gage that can move horizontally, accuracy detection is carried out to the groove on workpiece (100) to be detected.
8. the online feeding device for inspection of production line automatic discharging as claimed in claim 7, it is characterized in that: described both sides hold down gag comprises the compressed oil cylinder (23) of two side bottoms being positioned at locating piece (22), the output shaft of described compressed oil cylinder (23) is horizontally disposed with and can compresses the position, both sides of the workpiece (100) on locating piece (22) towards locating piece (22) motion;
Described top hold down gag comprises the transposition oil cylinder (24) above the both sides being positioned at locating piece (22), the output shaft (241) of this transposition oil cylinder (24) is setting up and down and can rotate and move up and down, the output shaft (241) of described transposition oil cylinder (24) is fixed with laterally extending depression bar (242), the outboard end of described depression bar (242) is provided with paw (243) setting up and down, described transposition oil cylinder can drive described depression bar (242) planar to horizontally rotate at it, and above the both sides of the workpiece (100) to be detected compressed on locating piece (22) that moves up and down.
9. the online feeding device for inspection of production line automatic discharging as claimed in claim 8, it is characterized in that: the both sides, front and back of described locating piece (22) are respectively equipped with cylinder (27), the output shaft of described cylinder (27) is arranged towards locating piece (22), and the output shaft (271) of described cylinder (27) is fixed with the drift or no-go gage (28) that arrange towards locating piece (22).
10. the online feeding device for inspection of production line automatic discharging as claimed in claim 9, it is characterized in that: the locating piece (22) on described base (21) and be also fixed with the guide post (29) extended in the same way with the output shaft of cylinder (27) between cylinder (27), the output shaft (271) of described cylinder (27) is fixed with laterally extending connecting rod (272), described connecting rod (272) is provided with the hole passed for guide post (29), the upper fixing described drift of connecting rod (272) or no-go gage (28), described connecting rod (272) moves along guide post (29) under the driving of cylinder (27).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520524356.5U CN204892393U (en) | 2015-07-17 | 2015-07-17 | Production line automatic discharge inspects device on line by ready samples |
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Application Number | Priority Date | Filing Date | Title |
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CN201520524356.5U CN204892393U (en) | 2015-07-17 | 2015-07-17 | Production line automatic discharge inspects device on line by ready samples |
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CN204892393U true CN204892393U (en) | 2015-12-23 |
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CN201520524356.5U Withdrawn - After Issue CN204892393U (en) | 2015-07-17 | 2015-07-17 | Production line automatic discharge inspects device on line by ready samples |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105170481A (en) * | 2015-07-17 | 2015-12-23 | 浙江畅尔智能装备股份有限公司 | Automatic discharge online inspection submitting device for production line |
CN107520141A (en) * | 2017-08-18 | 2017-12-29 | 广东长盈精密技术有限公司 | Housing detection means |
CN114953413A (en) * | 2022-05-11 | 2022-08-30 | 南京苏曼等离子科技有限公司 | Intelligent jet plasma treatment roller inner wall equipment |
-
2015
- 2015-07-17 CN CN201520524356.5U patent/CN204892393U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105170481A (en) * | 2015-07-17 | 2015-12-23 | 浙江畅尔智能装备股份有限公司 | Automatic discharge online inspection submitting device for production line |
CN105170481B (en) * | 2015-07-17 | 2017-10-20 | 浙江畅尔智能装备股份有限公司 | A kind of online feeding device for inspection of production line automatic discharging |
CN107520141A (en) * | 2017-08-18 | 2017-12-29 | 广东长盈精密技术有限公司 | Housing detection means |
CN114953413A (en) * | 2022-05-11 | 2022-08-30 | 南京苏曼等离子科技有限公司 | Intelligent jet plasma treatment roller inner wall equipment |
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